** Staining: The staining process is simple and flexible, usually requiring a 15-minute incubation of the gel or sample with the GelCode Blue Safe Protein Stain, followed by a simple water wash to yield blue protein bands and a clear background.

Gel Prep

Soap and Water: scrub with gloved fingers. Ensure all chunks are gone.

Rinse with water, then ethanol. Prop up vertically against green clamps for stands so they drain and dry.

Setup one spacer plate and one cover plate in each gel holder

The cover plate goes on the side of the spacer plate with the spacers in order to create a small gap between the plates

Put on the black counter top to pinch closed. Don't put it on the absorbant mat, as this slignt unevenness will increase your gel leakage rate. Janet had ~33% of gels leak until she started doing it on the black counter without padding; now she has ~5-10% of poured gels leak.

Filling to the top reduces the probability of trapping bubbles under the comb when you insert the comb.

Insert the comb being careful not to trap any bubbles

It is much easier to avoid bubbles if you fill the space with enough solution that it spills over the top as you put the comb in. It also helps to lower one side completely, then lower the other side down.

Attach 2 1" wide binder clips to each gel to help hold the comb in while drying. One on either side of the casting stand clamp.

On 1/3/2012 JM didn't use binder clips and lost an edge well on two out of 6 gels, which usually doesn't happen.

Leave for 30 minutes while polymerization occurs.

Wrapping up & Storing

Put binder clips away

Rinse everything off

Rinse gel under water with comb in to wash away solution that spilled over.

Remove comb from gel carefully (don't want to slant the parts that stick up) & soak in soapy water

Rinse casting stand, & rub the bottom where acrylamide tends to dry on

rub fingers over the comb to remove crust, rinse, and put on drying rack.

Wrap gels in a wet paper towel & store in a plastic bag or shrink wrap.

You can store for a few weeks in the fridge. Leave comb in (fine to remove comb, fill wells with water ALS 10-24-13), and wrap in a wet paper towel and cling wrap.

binder clips squeeze the glass to the comb. Put them as far down as they go.

Consolidated/Pictorial Protocol

SDS casting protocol

Sample Prep

use 5-8 or even up to 20 ug protein per well. (for Mini Protean with 10 well comb)

Amanda runs 15 ug in skinny comb wells 2013/10/25

If biomass is not limiting, prep a significant excess of protein, which will allow you to re-run if your gel turns out poorly for any reason.

If protein normalizing:

lyse cultures by sonication. Use 20 1 second pulses while tube is in ice, let the samples rest 5 minutes on ice, then sonicate again. Wipe sonicator stick between uses. Don't touch the tip while it is on.

sonication allows you access to un-dyed lysed sample, unlike boiling with sample loading buffer as is described below.

Mistakes to Be Careful About

Prepping Gels

using an "old" APS solution when making gels. The 10% weight/volume APS can be made fresh each time for best results. Don't use a solution that is more than a month or so old. The gels won't polymerize.

not mixing the liquid gel mixture enough

Janet pipettes up and down with a 10 or 15 mL pipette about 10 times, being careful not to bubble the solution.

letting the gel dry too long after pouring the stacking gel (comb step)

the very edges can shrivel up, which becomes a problem when you try to use those edge lanes

taking the gel off the casting stand before it has polymerized

entire sample will leak out

If using commercially prepared gels, don't forget to remove the tape on the bottom of the gel! If you load your samples and turn on the power and see voltage but no current, check for tape removal (duh, Nicole)!

Preparing Samples

using too much beta-mercaptoethanol in your sample buffer

should have < 1% beta-mercaptoethanol in the mix after you add sample buffer to the

too much reduction of cysteines is bad: will alter structure and even cleave proteins.

Running Gels

sample sloshing out of the well you are trying to load and falling into a neighboring well

Electrode buffer leaking out from between the two plates

Gel will run very unusually or stop running. Keep an eye out!

avoid by making sure the plates are well-seated

Using Tris-HCl instead of Tris in the electrode buffer

not having the lid to the running unit on all the way. --> poor electrical contact & blurry bands

note: Coomassie Brilliant Blue G-250 differs from Coomassie Brilliant Blue R-250 by the addition of two methyl groups. We use the G form. Read more about the R form here or at the bottom of this page.

Destaining Buffer:

30% methanol, 10% acetic acid, water

some labs use much less methanol & acetic acid; some use plain water.

Janet rinses in plain water before using our destianing buffer.

Acrylamide toxicity

Acrylamide is toxic to your nervous system, and may be a carcinogen. The unpolymerized form is toxic, but the polymerized form is much less toxic. ALWAYS wear gloves and wipe up spills - once the solution drys, the dust can be inhaled. Interestingly, fried starchy/sugary foods naturally contain acrylamide, too.

more than you want to know about acrylamide toxicity can be found here

Ladder

PageRuler protein gel legend

Other ladders:

BioRad protein standards

Combs/Loading Volumes

We currently only have the mini-protean gel running boxes. -JM 10/2012

SDS combs and loading volumes

Questions/Answers/Facts

What do all of the reagents do? How long do they last?

SDS

In loading buffer and often in gels (not necessary to include in gels; can be used in sample buffer)

APS & TEMED

polymerize acrylamide

Stability:

Biorad customer service 10/2012: "TEMED breaks down through interaction with oxygen, which produces many products in small amounts. TEMED, if stored properly, excluding oxygen, should not break down. It can pool up under the liner of the cap, and since it has very low viscosity, can creep between the the threads of the cap and those of the bottle. TEMED color is a good indicator of degradation. TEMED becomes a darker yellow color when degraded. Our APS is guaranteed for 1 year at room temperature in dry form (powder). APS should last indefinitely if stored desiccated. "

brand new BioRad TEMED opened 11/2012 was clear, not yellow. The old bottle was clear-yellow.

glycine

carry charge in the opposite direction as the negatively-charged SDS-covered proteins

methanol

in wash buffer

glycerol in loading buffer: helps sample sink

Bromphenol Blue

Is it important to degas my water + buffer + acrylamide mix before adding the APS and TEMED, as the manuals recommend?

"We recommend that you degas the solutions to get rid of nitrogen. Sometimes, the nitrogen may come out of solution and form bubbles in your gels. " -BioRad customer support 10/26/2012 JM

"Proper degassing and filtering of the casting solution is critical for both reproducibility of the polymerization (oxygen removal)" (link)

This manual suggests the consequence is poor polymerization. If you don't experience poor polymerization, maybe you don't need to worry about degassing...?

Also note this is not the justification customer support provided. (see above)

Why shouldn't we overlay the gels with butanol or isoporpanol as they polymerize?

"We do not recommend using butanol/isopropanol because these may degrade the glue on the spacer plates and the plastic of the casting frame." -BioRad customer support 10/26/2012 JM

Should I soak my gel or run them empty before use?

They say no: "I have not heard that soaking the gels in water will improve the run. Talking with my colleagues, we thought it would have been detrimental because the tris and chloride ions will diffuse out during this time and in theory, should have made your gel run poorly."

We had an episode in October & November 2012 where the gels ran funny unless they were pre-run without samples, but this was resolved by replacing gel-pouring buffers someone made with commercial BioRad buffers. About the temporary issue:

Ladder (and all other protein samples) ran fine until 1/2 way through the gel, after which they nearly halted and stacked on top of one another. Immediately after, a ~1 cm wide band that spanned across the gel was visible as it refracted light differently. This band disappeared after a while of soaking, leading me to believe it was a buildup of one of the buffer compounds. When such a gel was soaked overnight in water and ladder was loaded in an unused adjacent well, and it ran perfectly without bunching up. This was a very repeatable phenomonon with all gels used before the problem was solved.

Potential problems with soaking or pre-running gels:

You might ruin the stacking nature of the gel by alterning the buffer within the acrylamide matrix. This essentially converts your gel to a continuous buffer gel system, known to give more blurry bands.

Is it ok to re-use my electrode buffer?

Many people re-use it up to ~ 20 times, however, you should know that the manuals recommend single use and understand why. This may help.

How long can I store my acrylamide gels?

"Tris-HCl resolving gels are prepared at pH 8.6–8.8. At this basic pH, polyacrylamide slowly hydrolyzes to polyacrylic acid, which can compromise separation. For this reason, Tris-HCl gels have a relatively short shelf life. In addition, the gel pH can rise to pH 9.5 during a run, causing proteins to undergo deamination and alkylation. This may diminish resolution and complicate postelectrophoresis analysis." (reference)

note: commerical Tris gels have a shelf life of 6 months to 1 year. Amanda & Ceci don't keep hand-poured gels for more than a few weeks. (JM 11/2012)

It is possible the commercial gels have other means of extending shelf life.

The G-250 form the colloidal particles in an aqueous solution. This is an advantage for staining a gel because the colloids tend not to stain the gel matrices, reducing the background problem. When the colloids come close to the proteins, the dye molecule is removed from the colloids by the nearby proteins due to the higher affinity of proteins to the dye.

R-250, on the other hand, doesn't form the colloids. Rather, an individual dye molecule is dispersed in a solution. Therefore, the dye molecules can interact not only with proteins but with gel matrices freely, creating the background staining issue.

Should I throw my gel away if I forgot to add SDS to the resolving gel?

Janet thinks no, for two reasons:

The manual says "Bio-Rad’s precast gels also do not contain SDS and can be used for native or denaturing PAGE." (citation)

In 11/2012 I forgot to, and the proteins ran wonderfully, anyway.

Other Tips

Collecting samples in PCR strip tubes makes life nice!

You can concentrate samples using the PCR strip spinner on Marina's bench. It must be balanced!

You can do boiling-driven lysis in a thermocycler

Samples don't take up a lot of room in the freezer.

To write on them (for recording the date, and strip number if you have multiple) you can use a fine-tip sharpie and cover it with a ring of scotch-tape. Without tape, the writing tends to wear off.

We are in love with individually removable caps that stay attached as is sold here.

Samples don't splattering when you take of the caps, reducing cross-contamination and mess

If you only have one cap open at a time when loading your gel, you can tell much more easily which sample you just loaded, reducing the possibility that you have a problem.

Do, still, take each cap off slowly when opening them if there is liquid in the lid of the chamber. Often after shaking the strip to mix it, I open the cap quickly and splurt the blue sample on my clothes. It always rinses clean after adding water, but it is nicer if this doesn't happen.

Excess salt in SDS-PAGE samples causes fuzzy bands and narrowing of gel lanes toward the bottom of the gel

If the ionic strength is very high, no bands will appear in the lower part of the gel (a vertical streak will appear instead) and the dye front will be wavy instead of straight. Deionize any sample with a total ionic strength over 50 mM using columns such as Micro Bio-Spin™ columns, which contain 10 mM Tris at a pH suitable for SDS-PAGE. (source)

Success or failure of any protein analysis depends on sample purity.

Interfering substances that can negatively impact SDS-PAGE include salts, detergents, denaturants, or organic solvents (Evans et al. 2009). Highly viscous samples indicate high DNA and/or carbohydrate content, which may also interfere with PAGE separations. In addition, solutions at extreme pH values (for example, fractions from ion exchange chromatography) diminish the separation power of most electrophoresis techniques. Use one of the following methods as needed to remove these contaminants:

Protein precipitation — the most versatile method to selectively separate proteins from other contaminants consists of protein precipitation by trichloroacetic acid (TCA)/acetone followed by resolubilization in electrophoresis sample buffer. A variety of commercial kits can simplify and standardize laboratory procedures for protein isolation from biological samples

Polyacrylamide is oxidative, and so disulfide bonds may be re-formed after proteins enter the gel

also, oxidation of agents used to reduce any disulfide bonds in the original sample may introduce artifactual new components in the gel pattern. (source)

SDS can form micelles

The SDS concentration is greater than the critical micelle concentration (cmc), so SDS is present as micelles. Micellar SDS bound to the tracking dye unstacks at high gel concentrations in disc electrophoresis; so a tracking dye that marks the moving boundary front at low gel concentrations fails to do so at high concentrations (source)

KCl causes SDS to precipitate

If you samples contain KCl you should dilute them or methanol precipitate them and resuspend them in 1X sample buffer. With low concentrations of KCl (<200 mM) you can run them on the gel but you should loaed every lane with sample buffer containing the same concentration of KCl (even if they are blanks). This will help the gel run a little less anomalously. (source)

Supplies

BioRad sells most of the reagents we use. You can make most of them yourself, if you'd like.

The "diaper" that goes under the gel casting stand:

Janet called BioRad , UW EH&S, and VWR on 11/29/2012 to identify a special pad that is particularly good for absorbing liquid acrylamide mixtures used in pouring acrylamide gels. The idea is that such a pad would prevent the dried acrylamide from being re-released into the air and breathed by scientists. Unfortunately, this doesn't seem to exist.